Simulation/BOOST/EmcSim/EmcSim-00-00-46/EmcSim/BesEmcConstruction.hh

Go to the documentation of this file.

//---------------------------------------------------------------------------//
//      BOOST --- BESIII Object_Oreiented Simulation Tool                    //
//---------------------------------------------------------------------------//
//Descpirtion: EMC detector 
//Author: Fu Chengdong
//Created: Sep 4, 2003
//Comment:
//---------------------------------------------------------------------------//
//
 
#ifndef BesEmcConstruction_h
#define BesEmcConstruction_h 1
 
//#include "G4VUserDetectorConstruction.hh"
#include "globals.hh"
#include "BesSubdetector.hh"
#include "BesEmcGeometry.hh"
#include "BesEmcEndGeometry.hh"
#include "G4VPVParameterisation.hh"
 
//#include "CLHEP/config/CLHEP.h"
#include "CLHEP/Vector/ThreeVector.h"
#include "CLHEP/Vector/Rotation.h"
#include "CLHEP/Geometry/Point3D.h"
#include "CLHEP/Geometry/Plane3D.h"
#ifndef ENABLE_BACKWARDS_COMPATIBILITY
  typedef HepGeom::Point3D<double> HepPoint3D;
#endif
#ifndef ENABLE_BACKWARDS_COMPATIBILITY
  //  backwards compatibility will be enabled ONLY in CLHEP 1.9
  typedef HepGeom::Plane3D<double> HepPlane3D;
#endif
 
 
using namespace CLHEP;
 
class G4Box;
class G4Tubs;
class G4Cons;
class G4Polyhedra;
class G4Trap;
class G4UnionSolid;
class G4LogicalVolume;
class G4VPhysicalVolume;
class G4Material;
class G4UniformMagField;
class BesEmcDetectorMessenger;
class BesEmcSD;
class G4IrregBox;
class G4SubtractionSolid;
 
class BesEmcConstruction : public BesSubdetector
{
public: // with description
  static BesEmcConstruction* GetBesEmcConstruction();
  //  Static method which returns the singleton pointer of G4RunManager or
  // its derived class.
  
private:
  static BesEmcConstruction* fBesEmcConstruction;
  
public:
  
  BesEmcConstruction();
  ~BesEmcConstruction();
  
public:
  
  inline void SetVerboseLevel(G4int val){ verboseLevel=val;}
 
  void SetCrystalMaterial (G4String);     
  
  void SetCasingMaterial (G4String);     
  void SetCasingThickness(G4ThreeVector);
  
  void SetBSCRmin(G4double);
  void SetBSCNbPhi(G4int);
  void SetBSCNbTheta(G4int);
  void SetStartIDTheta(G4int);
  void SetBSCCrystalLength(G4double);
  void SetBSCYFront0(G4double);
  void SetBSCYFront(G4double);
  void SetBSCPosition0(G4double);
  void SetBSCPosition1(G4double);
  
  void SetMagField(G4double);
     
  void Construct(G4LogicalVolume*);
  
  void UpdateGeometry();
 
  void ThreeVectorTrans( G4ThreeVector fPnt[8], double x[8], double y[8], double z[8] );
  void TransformToArb8( const G4ThreeVector fPnt[8], G4ThreeVector newfPnt[8],
      G4ThreeVector &center, G4ThreeVector &rotAngle );
  Hep3Vector RotAngleFromNewZ( Hep3Vector newZ );
  
public:
  
  void PrintEMCParameters(); 
  
  G4int GetVerboseLevel() {return verboseLevel;};
  G4double GetMagField()  {return fmagField;};
 
  G4int GetStartIDTheta()          {return startID;};
  
  G4Material* GetCrystalMaterial()  {return fCrystalMaterial;};     
  G4Material* GetCasingMaterial()       {return fCasingMaterial;};
  //G4ThreeVector GetCasingThickness()   {return G4ThreeVector(fTyvekThickness,fAlThickness,fMylarThickness);};
  
  const G4VPhysicalVolume* GetEMC() {return physiEMC; }
  const G4VPhysicalVolume* GetBSCPhi() {return physiBSCPhi;};
  const G4VPhysicalVolume* GetBSCTheta() {return physiBSCTheta;};
  const G4VPhysicalVolume* GetBSCCrystal(){return physiBSCCrystal;};
  const G4VPVParameterisation* GetCrystalParam(){return crystalParam;};
 
private:
 
  G4int              verboseLevel;
  G4double           fmagField;
     
  G4Material*        fCrystalMaterial;
 
  G4int              phiNbCrystals;
  G4int              thetaNbCrystals;
  G4int              startID;
 
  G4Material*        fCasingMaterial;
  
  G4Material*        defaultMaterial;
 
  G4Tubs*             solidBSC;     //Barrel
  G4Cons*             solidESC;     //Endcap
  G4UnionSolid*       solidEMC;
  G4LogicalVolume*    logicEMC;
  G4VPhysicalVolume*  physiEMC;
  
  G4SubtractionSolid* solidBSCWorld;  //virtual volume for barrel
  G4LogicalVolume*    logicBSCWorld;
  G4VPhysicalVolume*  physiBSCWorld;
  
  G4Tubs*            solidBSCPhiTub;
  G4Cons*            solidConsPhi;
  G4SubtractionSolid* solidBSCPhi1;
  G4SubtractionSolid* solidBSCPhi;   //pointer to the solid Layer 
  G4LogicalVolume*   logicBSCPhi;    //pointer to the logical Layer
  G4VPhysicalVolume* physiBSCPhi;    //pointer to the physical Layer
 
  G4Trap*            solidBSCTheta; //pointer to the solid Absorber
  G4LogicalVolume*   logicBSCTheta; //pointer to the logical Absorber
  G4VPhysicalVolume* physiBSCTheta; //pointer to the physical Absorber
  
  G4Trap*            solidBSCCrystal; //pointer to the solid Absorber
  G4LogicalVolume*   logicBSCCrystal; //pointer to the logical Absorber
  G4VPhysicalVolume* physiBSCCrystal; //pointer to the physical Absorber
 
  G4UniformMagField* magField;      //pointer to the magnetic field
  
  BesEmcDetectorMessenger* detectorMessenger;  //pointer to the Messenger
  BesEmcSD*          besEMCSD;  //pointer to the sensitive detector
  BesEmcGeometry     *besEMCGeometry;
  BesEmcEndGeometry  *emcEnd;
  G4VPVParameterisation*  crystalParam;   
 
//Endcap geometry
private:
  
  G4Cons*            solidEnd;      //pointer to the endcap
  G4LogicalVolume*   logicEnd;
  G4VPhysicalVolume* physiEnd;
 
  G4Cons*            solidEndPhi;
  G4LogicalVolume*   logicEndPhi;
  G4VPhysicalVolume* physiEndPhi;
 
  G4IrregBox*        solidEndCasing;
  G4LogicalVolume*   logicEndCasing;
  G4VPhysicalVolume* physiEndCasing;
 
  G4IrregBox*        solidEndCrystal;
  G4LogicalVolume*   logicEndCrystal;
  G4VPhysicalVolume* physiEndCrystal;
 
//other substance on the rear face of crystal
private:
 
  G4Box*              solidRear;          //virtual volume
  G4LogicalVolume*    logicRear;
  G4VPhysicalVolume*  physiRear;
 
  G4Box*              solidCasingBox;     //casing
  G4Box*              solidAirHole;
  G4SubtractionSolid* solidRearCasing;
  G4LogicalVolume*    logicRearCasing;
  G4VPhysicalVolume*  physiRearCasing;
 
  G4Box*              solidOrgGlass;      //organic glass
  G4LogicalVolume*    logicOrgGlass;
  G4VPhysicalVolume*  physiOrgGlass;
 
  G4Box*              solidPD;            //photodiode
  G4LogicalVolume*    logicPD;
  G4VPhysicalVolume*  physiPD;
 
  G4Box*              solidAlBox;         //Al plate
  G4SubtractionSolid* solidAlPlate;
  G4LogicalVolume*    logicAlPlate;
  G4VPhysicalVolume*  physiAlPlate;
 
  G4Box*              solidPreAmpBox;     //preamplifier box
  G4LogicalVolume*    logicPreAmpBox;
  G4VPhysicalVolume*  physiPreAmpBox;
 
  G4Box*              solidAirInPABox;    //air in preamplifier box
  G4LogicalVolume*    logicAirInPABox;
  G4VPhysicalVolume*  physiAirInPABox;
 
  G4Box*              solidHangingPlate;  //stainless steel for hanging the crysta
  G4LogicalVolume*    logicHangingPlate;
  G4VPhysicalVolume*  physiHangingPlate;
 
  G4Cons*             solidOCGirder;      //opening-cut girder
  G4LogicalVolume*    logicOCGirder;
  G4VPhysicalVolume*  physiOCGirder;
 
  G4Tubs*             solidCable;         //cable
  G4LogicalVolume*    logicCable;
  G4VPhysicalVolume*  physiCable;
 
  G4Tubs*             solidWaterPipe;     //water pipe
  G4LogicalVolume*    logicWaterPipe;
  G4VPhysicalVolume*  physiWaterPipe;
 
//barrel support frame
private:
  G4Tubs*             solidSupportBar;      //support bar
  G4LogicalVolume*    logicSupportBar;
  G4VPhysicalVolume*  physiSupportBar;
  
  G4Tubs*             solidSupportBar1;
  G4LogicalVolume*    logicSupportBar1;
  G4VPhysicalVolume*  physiSupportBar1;
  
  G4Tubs*             solidEndRing;       //end ring
  G4LogicalVolume*    logicEndRing;
  G4VPhysicalVolume*  physiEndRing;
 
  G4Tubs*             solidGear;
  G4LogicalVolume*    logicGear;
  G4VPhysicalVolume*  physiGear;
 
  G4Tubs*             solidTaperRing1;     //taper ring
  G4LogicalVolume*    logicTaperRing1;
  G4VPhysicalVolume*  physiTaperRing1;
 
  G4Cons*             solidTaperRing2;
  G4LogicalVolume*    logicTaperRing2;
  G4VPhysicalVolume*  physiTaperRing2;
 
  G4Cons*             solidTaperRing3;
  G4LogicalVolume*    logicTaperRing3;
  G4VPhysicalVolume*  physiTaperRing3;
 
private:
  G4Material*         rearCasingMaterial;
  G4Material*         organicGlass;
  G4Material*         stainlessSteel;
  G4Material*         cable;
  G4Material*         waterPipe;
 
public:
  void ConstructSPFrame(G4LogicalVolume*, BesEmcGeometry*);
  void ConstructEndGeometry(G4LogicalVolume*);
  void GetLogicalVolume();
  void SetVisAndSD();
  G4int ComputeEndCopyNb(G4int);
      
private:
    
  void DefineMaterials();
  void ComputeEMCParameters();
  //  G4VPhysicalVolume* Construct(G4LogicalVolume*);     
};
 
//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 
#endif